A genetic screen for suppressors of a hypomorphic allele of Arabidopsis ARGONAUTE1

ARGONAUTE1 (AGO1) encodes a key component of the complexes mediating microRNA (miRNA) function in Arabidopsis. To study the regulation, action and interactions of AGO1, we conducted a genetic screen to identify second-site mutations modifying the morphological phenotype of ago1-52, a partial loss-of-function allele of AGO1. Unlike null ago1 mutations, the hypomorphic ago1-52 allele does not cause lethality or sterility; however, ago1-52 does produce a morphological phenotype clearly distinct from wild type. In our screen for modifiers of ago1-52, we identified suppressor mutations that partially restore wild-type morphology in the ago1-52 background and we termed these mas (morphology of argonaute1-52 suppressed). We focused on 23 of these putative suppressors. Linkage analysis of the mas mutations together with sequencing of the AGO1 gene in genomic DNA and cDNA from ago1-52 mas plants indicated that 22 of the mas lines contain extragenic suppressors, and one contains an intragenic suppressor that affects splicing of ago1-52. In the presence of the wild-type allele of AGO1, most of the mas mutations cause a mild or no mutant phenotype on their own, indicating that the ago1-52 mutant may provide a sensitized background for examining the interactions of AGO1.